Post on 12-Aug-2021
Next Generation Smart Water Management Systems
WATER-MINING is an EU-funded multidisciplinary research project that creates water management solutions using a circular economy approach. The project’s consortium consists of 38 public and private partners and four linked third parties from 12 countries, and is led by the Delft University of Technology (TU Delft, the Netherlands). WATER-MINING works with pilot sites in Cyprus, Spain, Portugal, Italy and the Netherlands to demonstrate new and efficient ways to reclaim nutrients,
New water servicesWater as a ResourceWater demands must be met by policymakers, and in the face of increasing water scarcity, alternative water resources must be integrated into the supply. Desalination is expected to play a key role, especially in water-stressed regions.
Water as a ConsumableOver the last century the global population tripled, and together with increasing levels of consumption and living standards, water demand increased substantially. Urban water consumption is an important fraction of the total human water use, but it presents a possible alternative source of water via wastewater recovery technology.
Water as a DurableDurable goods are defined as goods used for final consumption regularly over a period of over one year. Development of innovative technologies to reuse industrial water is promising for reducing water demand from within this sector via advanced wastewater treatment and recovery technology.
DesalinationSea-mining
Urban wastewater Urban-mining
Industrial used streams Industrial-mining
Water Value Chain
minerals, biopolymers, energy and freshwater from desalination, and industrial and urban wastewater. To successfully integrate these value-added products into resource supply chains, the project produces science-based, market-oriented policy recommendations, designs circular business models, and engages stakeholders, leading to sustainable management of water resources.
Data-mining
About
Fit-for-purpose water
Carbon neutral water services
Safe water reuse
Smart water management
Recovery and supply of critical raw materials
Supply of nutrients
Supply of alginate-like polymers
Rate setting mechanisms
Demand management
Benefits
Advanced desalination combined with solar energy and
waste heat
Production of a valuable bio-based product from the residues of
wastewater treatment
Sustainable techniques for extracting phosphate from
wastewater
Energy-efficient nutrient recovery from wastewater
Zero-Liquid-Discharge loop systems for pollution-free
wastewater
Circular economy business models within the wastewater
cycle
Mobilise private funding through public-private partnerships
Bring circular water systems to public attention and increase
awareness
Advance new policy and regulatory measures
Locations & Services
The WATER-MINING project includes six demonstration sites covering the three water sources: sea, urban and industrial and includes two physical living labs in Almeria, Spain and the port of Rotterdam, The Netherlands.
Lampedusa
Italy Alm
eria
Spain Faro Portugal
Delft Netherla
nds
Larnaca
Cyprus La Llagosta
Spain Port of R
otterdam
Netherlands
Sea-miningDesalination
Industrial-miningIndustrialised-stream
Living Labs
Urban-miningUrban wastewater
Services
Maximize water usage efficiency
Reduce water consumption
Safe water reuse
Energy production and saving
Recovery and supply of
critical raw material
Supply of alginate-like polymers
Chlorine recycling
BG BG
PO PO
WH: Waste Heat
S: Salts
SE: Solar Energy
BG: Biogas
PO: Phosphates
IndiaDemonstration site in planning
SE
PO/S
WH
S
WH
S S
SE
Partners
Contact
Professor Patricia Osseweijer
TU Delft Project Coordinator
p.osseweijer@tudelft.nl
Nicole Heine
DECHEMACommunication Leader
nicole.heine@dechema.de
#watermining
watermining.eu
info@watermining.eu
Dr. Dimitris Xevgenos
TU Delft Executive Project Coordinator
d.xevgenos@tudelft.nl
Philipp Kehrein
TU Delft Assistant coordinator
P.A.Kehrein@tudelft.nl
Professor Mark Van Loosdrecht
TU Delft Scientific Manager
M.C.M.vanLoosdrecht@tudelft.nl